KR100947515B1 - Sludge of elimination - Google Patents

Abstract

PURPOSE: A sludge removing device is provided to rapidly suck sludge with uniform pressure and high efficiency by floating sludge with compressed air or compressed water in a space of a discharge hopper, and to freely adjust the suction force. CONSTITUTION: A sludge removing device includes the following: a main body(10) formed to a tubal shape; a disc(20) opening and closing an inlet of the main body; a sludge discharge valve consisting of a driving part(30) driving the disc; a distribution pipe(52) distributing compressed air or compressed water; a floating device(50) consisting of an injection nozzle(53) floating sludge(2); and a floodgate preventing dispersion of the floated sludge.

Description

Sludge Removal Device {Sludge of Elimination}

The present invention relates to a sludge removal apparatus, and more particularly, to induce sludge by the compressed air or compressed water of the sludge flotation device in the hopper corner space of the sedimentation basin to uniform suction in the overall area of the hopper through the sludge discharge valve Sludge can be sucked quickly and efficiently with high pressure, thus reducing the power cost by intermittently operating when necessary, and when the sludge is injured by the sludge flotation device, the sluice of the sluice device installed in the upper side of the discharge hopper is Blocked and floated sludge is prevented from dispersing out of the discharge hopper is excellent in sludge removal, the sludge discharge valve is formed in the inlet is formed in the form of a fallopian tube on the cross-section, and the outer periphery in the form of upper and lower light so as to open and close the inlet formed By being composed of a disk, it is not sucked well conventionally Can be drawn through the inlet to the sludge in the corners of the space went discharge hopper, onto the disk, and to control the suction power can be adjusted relates to a superior sludge removing apparatus for removing sludge.

In general, a water purification plant and a sewage treatment plant are provided with a sedimentation basin of approximately 70 mL × 10 mW × 5 mH to precipitate sludge contained in raw water flowing into the water purification plant and the sewage treatment plant. After that, the supernatant water of the sedimentation basin is supplied to the filter paper through the overflow wear in the case of the water purification plant, and discharged to the stream after the organic matter purification process in the case of the sewage treatment plant.

On the other hand, the sludge settled in the conventional sedimentation basin is collected in a sludge bladder hopper by a plurality of flights arranged at predetermined intervals in the transfer chain, and then a plurality of sludges respectively penetrated through the lower part of the sludge bladder hopper. It is discharged along the vane pipe installed in the longitudinal direction through the suction pipe, which is discharged to the discharge water tank in the case of a purification plant using a transfer pump, and to the concentration tank in the case of a sewage treatment plant. In this case, the sludge collected into the bladder hopper may be discharged as natural oil due to the head difference of the sedimentation basin.

However, the sludge collected in the discharge hopper is not discharged smoothly even when the discharge valve is opened, and only a portion of the sludge directly above the discharge valve is discharged to form a rabbit hole, and the sludge at the periphery cannot be discharged. If sludge is not discharged smoothly and remains in a deposited state, it may cause the sludge collector to run or cause a failure and shorten the cleaning cycle of the sedimentation basin.

The present invention has been made to solve the above problems,

Sludge is injured by compressed air or compressed water of the sludge flotation device in the hopper's empty space in the sedimentation basin, and the sludge discharge valve sucks the sludge efficiently and efficiently at a uniform suction pressure at the overall area inside the hopper through the sludge discharge valve. It is an object of the present invention to provide a sludge removal apparatus that reduces power costs by operating intermittently.

In addition, when the sludge is injured by the sludge flotation device, the water gate of the sluice device installed in the open upper side of the discharge hopper is blocked to prevent the sludge from injured sludge is dispersed out of the discharge hopper to provide an excellent sludge removal device. There is another purpose to provide.

In addition, the sludge discharge valve is composed of a body in which the inlet is formed in the form of a fallopian tube on the cross-section, and a disk in which the outer periphery is formed to be inclined in the form of upper and lower light so as to open and close the inlet, the corner space of the discharge hopper that was not sucked conventionally It is another object to provide a sludge removal device that can be sucked through the inlet through the inlet, and the suction force can be adjusted by adjusting the up and down of the disk, the sludge removal excellent.

In order to achieve the above object, the present invention is a device for collecting the sludge precipitated in the sedimentation basin of the water purification plant and sewage treatment plant by the scrubber to discharge to remove the discharge hopper,

The body is provided in the discharge hopper and the inlet is formed in a shape that is extended to the lower side in the form of a fallopian tube on the cross-section to suck the sludge in the corner space of the hopper, opening and closing the inlet of the body by the up, down drive and the inner surface of the inlet The outer periphery is formed to be inclined in the form of upper and lower light so as to be in close contact with each other when closed, and the disk is formed to correspond to the cross-sectional shape of the inlet, and a drive shaft is connected to the upper surface of the disk to drive the disk up and down. A sludge discharge valve composed of a drive unit;

A distribution pipe for distributing compressed air or compressed water transferred from the outside through a transport pipe connected to one side and provided in a rectangular shape on the upper surface of the discharge hopper, and a plurality of the lower end of the distribution pipe spaced apart from each other in the longitudinal direction A sludge flotation device, which is installed and is composed of an injection nozzle for injecting compressed air or compressed water distributed through the distribution pipe into the corner space of the discharge hopper to float the sludge;

Slurry removal device comprising: a hydrological device provided in the open upper side of the discharge hopper to open and close the inside, and prevent the sludge injured by the sludge floating device is dispersed out of the discharge hopper; It is about.

As described above, the sludge removal apparatus of the present invention induces the sludge by the compressed air or compressed water of the sludge flotation device in the discharge hopper corner space of the sedimentation basin, uniform suction in the overall area of the hopper through the sludge discharge valve Sludge can be sucked quickly and efficiently with pressure, thereby reducing power costs by operating intermittently when necessary.

In addition, when the sludge is injured by the sludge flotation device, the water gate of the sluice device installed in the open upper side of the discharge hopper is blocked to prevent the sludge from being floated out of the discharge hopper to have an excellent effect on sludge removal.

In addition, the sludge discharge valve is composed of a body in which the inlet is formed in the form of a fallopian tube on the cross-section, and a disk in which the outer periphery is formed to be inclined in the form of upper and lower light so as to open and close the inlet, the corner space of the discharge hopper that was not sucked conventionally The sludge can be sucked through the inlet, and the suction force can be adjusted by adjusting the up and down of the disk, thereby effectively removing sludge.

The present invention has the following features to achieve the above object.

The present invention is a device for collecting the sludge precipitated in the sedimentation basin of the water purification plant and sewage treatment plant by the scrubber to discharge to the outside to remove the sludge,

The inlet is provided in the discharge hopper and the inlet is formed in a shape that is extended to the lower side in the form of a fallopian tube on the cross-section to suck the sludge in the corner space of the hopper, the inlet of the body opening and closing the opening and closing the inside of the inlet The outer periphery is formed to be inclined in the form of upper and lower light so as to be in close contact with the side surface, and is formed to correspond to the cross-sectional shape of the inlet, and the drive shaft is connected to the upper surface of the disk to drive the disk up and down. A sludge discharge valve composed of a driving unit to make;

A distribution pipe for distributing compressed air or compressed water transferred from the outside through a transport pipe connected to one side and provided in a rectangular shape on the upper surface of the discharge hopper, and a plurality of the lower end of the distribution pipe spaced apart from each other in the longitudinal direction A sludge flotation device, which is installed and is composed of an injection nozzle for injecting compressed air or compressed water distributed through the distribution pipe into the corner space of the discharge hopper to float the sludge;

And a hydrological device provided at an open upper side of the discharge hopper to open and close the inside and to prevent sludge injured by the sludge floating device from being dispersed out of the discharge hopper.

The present invention having such a feature will be more clearly described through the preferred embodiment accordingly.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a cross-sectional view showing the sedimentation basin of the water purification plant and sewage treatment plant according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a sludge removal apparatus according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention 4 is a front view showing a hydrological device according to an embodiment of the present invention, FIG. 5 is a side view showing a hydrological device according to an embodiment of the present invention, and FIG. A plan view showing a sludge flotation device according to an embodiment of the.

1 to 6, the sludge removal apparatus of the present invention collects the sludge (2) precipitated in the sedimentation basin (6) of the water purification plant and sewage treatment plant to the discharge hopper (1) by the scrubber (3). It is composed of a sludge discharge valve 40, a sludge flotation device 50, and a hydrologic device to remove the sludge 2 by discharge.

First, as shown in FIG. 1, the sedimentation basin 6 flows through a mixed well through an impregnation well in a water purification plant, and the fluid containing sludge 2 in the sedimentation basin 6 is passed over time. The sludge 2 is thus precipitated at the bottom of the sedimentation basin 6. Then, the scrubber (3) installed on the bottom surface of the sedimentation basin (6) is transported in the direction of the hopper (1) in accordance with the transfer member (not shown), such as a chain or rail, the bottom sludge (2) to the hopper (1) Transfer to collect.

Here, the scrubber (3) is slid left and right in the drawing by the limit switch (4) installed on both sides of the settling basin (6), when the scrubber (3) is in contact with the limit switch (4) toward the hopper 1 The sludge flotation device 50 and the sludge discharge valve 40 are opened to discharge the sludge 2 of the hopper 1 to the outside.

At this time, after the scrubber (3) is in contact with the limit switch (4) side of the hopper 1, after a predetermined time, the normally open hydrological device is operated to block the open upper side of the hopper (1). Then, the sludge 2 which is injured in the operation of the sludge flotation device 50 is prevented from being separated out of the hopper 1 and at the same time, the sludge 2 is easily removed through the sludge discharge valve 40.

Then, when the sludge 2 is purified from the sedimentation basin (6) is discharged to the outside, the foreign matter such as sludge once again while passing through the filter paper (5).

As shown in FIGS. 1 and 2, the sludge discharge valve 40 sucks the sludge 2 collected into the discharge hopper 1 of the water purification plant sedimentation basin 6 by a suction device (not shown) connected to the outside. As a device for controlling the discharge to the outside, it is composed of a body 10, the disk 20, the drive unit 30.

Here, the body 10 is provided in the discharge hopper 1 of the water purification plant sedimentation basin 6 to directly transport the sludge 2 to the outside, the sludge through the conveying path 12 formed inside the body 10 A suction force is formed in the conveyance path 12 so that the (2) is conveyed, and this suction force is transmitted through the suction device in communication with the body 10.

In addition, the inlet 11 is formed at the end of the body 10 so that the sludge 2 is introduced, the inlet 11 is provided at a predetermined interval spaced from the inner surface of the discharge hopper 1, the discharge It is formed in the form of a fallopian tube in cross section for sucking up to the sludge 2 in the corner space (corner) of the hopper 1.

In more detail, the inlet 11 is formed in the form of upper and lower beams in a shape that extends downward to suck the sludge 2 by expanding the suction force radially.

In addition, the body 10 has a conveying path 12 formed therein in the form of "A" in cross section, the shape of the body 10 is to store the sludge 2 in the position and the outside of the discharge hopper (1). The storage tank (not shown) can be converted in various ways depending on the location and space used.

Here, the disk 20 is opened and closed by the up and down drive of the inlet 11 of the body 10, the outer periphery is inclined in the form of upper and lower light so as to be in close contact with the inner surface of the inlet 11 when closing. Is formed.

In addition, the disk 20 is formed in the same shape as the cross-sectional shape of the inlet 11, the sludge 2 is sucked between the outer periphery of the disk 20 and the inner surface of the inlet 11, the disk 20 You can adjust the strength and weakness of the suction force according to the difference between the upper and lower height of).

Therefore, it is not necessary to adjust the suction force of the suction device arbitrarily to reduce power consumption, and cover the area of the discharge hopper 1 formed by the upper and lower adjustment of the disk 20 with one sludge discharge valve 40. Can be.

Here, the drive unit 30 is a device for driving up and down of the disk 20, the drive shaft 31 is connected to the upper surface of the disk 20 to drive the disk 20 up and down, the drive shaft The lever 32 is provided at the end of the 31 so that the drive shaft 31 is driven up and down by the rotation of the lever 32, and the disk 20 is driven up and down accordingly.

As shown in FIG. 2 and FIG. 6, the sludge flotation device 50 has excess sludge remaining without the sludge 2 collected in the discharge hopper 1 being discharged through the sludge discharge valve 40. (2) In other words, the sludge is injured by spraying compressed air or compressed water so that the sludge is easily removed according to the operation of the sludge space 2 or the sludge discharge valve 40 that has been left for a long time or in the corner of the discharge hopper 1. It consists of a conveying pipe 51, the distribution pipe 52, and the injection nozzle 53.

Here, the transfer pipe 51 is literally a pipe for transferring compressed air or compressed water from the outside, and communicates with compressed air or a compressed water generator (not shown) installed outside, such that the inside of the discharge hopper 1 It is provided until. At this time, the transfer pipe is formed along the side of the discharge hopper, it is provided as a gap space between the water gate device and the discharge hopper.

In addition, the dispensing pipe 52 is communicated to the end of the transfer pipe 51, the distribution pipe 52 serves to distribute the compressed air or compressed water to the injection nozzle 53, the discharge hopper (1) It is provided spaced apart at a predetermined interval on the lower surface, the distribution pipe 52 is formed in a circular shape, the design of the discharge hopper 1 can be variously changed according to the shape.

In addition, the injection nozzle 53 is formed to protrude from the side portion of the distribution pipe 52, the injection nozzle 53 is formed a plurality of spaced apart a predetermined interval in the longitudinal direction of the distribution pipe (52).

Here, the injection nozzle 53 is formed by bending the end portion at a predetermined angle so that the compressed air or compressed water to be injected is delivered to the corner space of the discharge hopper (1).

2 to 5, the hydrological device is provided in the open upper side of the discharge hopper (1) to open and close the inside, the sludge (2) injured by the sludge flotation device 50 is discharge hopper (1) It is composed of a plurality of water gates 60, a support 70, a chain linking device 80, a wire linking device 90 and a drive unit 100 to prevent the dispersion out.

The sluice gate 60 is provided with an open upper portion of the discharge hopper 1 with reference to FIG. 3, and is composed of a plurality of sluice gates 60 so that the ends of the mutual sluice gates 60 overlap each predetermined interval. The shaft 61 is connected in the longitudinal direction to the central portion of each of the gates so that the gate 60 is repeatedly rotated (opening / closing the discharge hopper 1) by the rotation of the shaft 61.

Here, the water gate 60 is formed so that the inner surface of the discharge hopper 1 and the end of the water gate 60 is spaced apart from each other to form a gap space 62, the gap space 62 should have a sludge discharge valve ( When the operation of the 40) the discharge hopper (1) is not sealed inside the sludge 2 is easily discharged to the outside through the sludge discharge valve (40).

2 and 5, the support 70 supports the water gate 60 so that the water gate 60 is provided at an open upper side of the discharge hopper 1, and the support 70 is formed on one shaft. (61) While one side is connected to both ends and supports the shaft 61, the other side is fixedly installed on the bottom surface of the discharge hopper (1).

Here, when the support 70 is connected to the shaft 61, a support member (not shown) such as a bearing and a bushing is further installed on the support 70 to which the shaft 61 is rotated so that the shaft 61 is rotated. It is also supported by the support 70 while being rotated. In addition, the support 70 is installed on each of the plurality of shafts 61 to firmly support the sluice 60.

3 to 5, the chain linking device 80 is formed at both ends of the shaft 61 of the hydrological gate 60 to connect the plurality of hydrological gates 60 to the chain 81 and rotate at the same time. As a result, a chain sprocket (not shown) is formed so that the chain 81 is connected to each other, and the chain sprocket is formed such that the shaft 61 penetrates a central portion thereof.

4 and 5, the wire connecting device 90 includes a wire sheave 91 formed at an end of one of the plurality of gates 60 and the shaft 61 of the gate 60, and the wires. It is composed of a wire eye grip 92 formed at both ends of the sheave 91 to which the wire 93 is connected.

Here, in the present invention, the wire connecting device 90 is connected to the shaft 61 formed at the center, and the kinetic energy of the wire connecting device 90 is repeatedly rotated to the chain connecting device 80 to transmit the shaft ( By rotating 61) in the same direction, the plurality of floodgates 60 are rotated in the same direction at the same time.

2 or 5, the driving unit 100 is connected to the wire 93 connected to the wire sheave 91 of the wire connecting device 90 and repeatedly drives the wire 93. The wire 93 is caught by the gear of the driving unit 100 and transmits the repeated rotation of the gear to the wire connecting device 90.

1 is a cross-sectional view showing the sedimentation basin of the water purification plant and sewage treatment plant according to an embodiment of the present invention,

Figure 2 is a cross-sectional view showing a sludge removal apparatus according to an embodiment of the present invention,

3 is a plan view showing a hydrological device according to an embodiment of the present invention,

Figure 4 is a front view showing a hydrological device according to an embodiment of the present invention,

Figure 5 is a side view showing a hydrological device according to an embodiment of the present invention,

Figure 6 is a plan view showing a sludge floating apparatus according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: body 11: inlet

12: transfer path 20: disk

30: drive unit 31: drive shaft

32: lever 40: sludge discharge valve

50: sludge flotation device 51: transfer pipe

52: distribution pipe 53: injection nozzle

60: sluice 61: axis

62: clearance space 70: support

80: chain connection device 81: chain

90: wire connecting device 91: wire sheave

92: wire eye grip 93: wire

100: drive unit

Claims (4)

In the apparatus for collecting the sludge (2) precipitated in the sedimentation basin (6) of the water purification plant and sewage treatment plant to the discharge hopper (1) by the scrubber (3), and discharged to the outside to remove The body 10 is provided in the discharge hopper 1 is formed in a shape in which the inlet 11 is extended to the lower side in the form of a fallopian tube in the cross-section in order to suck up the sludge 2 in the corner space of the discharge hopper 1, The inlet 11 of the body 10 is opened and closed by up and down driving, and the outer periphery is formed to be inclined in the form of upper and lower beams so as to be in close contact with the inner surface of the inlet 11 when closed. Sludge discharge valve composed of a disk 20 and the drive shaft 31 is connected to the upper surface of the disk 20 to drive the disk 20 up and down, so as to correspond to the shape 40; A distribution pipe 52 provided at an upper side of the inner surface of the discharge hopper 1 to distribute compressed air or compressed water transferred from the outside through a transfer pipe 51 connected to one side thereof, and A plurality of injection nozzles 53 are installed in the longitudinal direction spaced apart from each other in the longitudinal direction to inject the compressed air or compressed water distributed through the distribution pipe 52 to the corner space of the discharge hopper 1 to rise the sludge (2). Sludge flotation device 50 composed of; A sluice device provided at an open upper side of the discharge hopper 1 to open and close the inside, and to prevent the sludge injured by the sludge floating device 50 from being dispersed out of the discharge hopper 1; Sludge removal apparatus, characterized in that configured to include. According to claim 1, The hydrological device, A plurality of water gates (60) provided at an open upper side of the discharge hopper (1) and repeatedly rotated by a shaft (61) to open and close the interior of the discharge hopper (1); One side is connected to the shaft 61 so that the water gate 60 is provided on the open upper side of the discharge hopper 1 to support the water gate 60, and the other side is fixed to the bottom surface of the discharge hopper (1) A support 70; A chain linking device (80) formed at each of both ends of the shaft (61) of the floodgate (60) to be connected to a plurality of floodgates (60) by a chain and to rotate at the same time; One of the plurality of gates (60) is selectively formed at the end of one of the gate (60) shaft 61 is connected to the wire 93, the single gate 60 is repeated by the drive of the wire (93) A wire connecting device 90 to rotate; A driving unit 100 connected to a wire 93 connected to both ends of the wire connection device 90 to repeatedly drive the wire 93; Sludge removal apparatus, characterized in that configured to include. The method of claim 2, The plurality of sluice gates 60 are formed so that their ends overlap each other by a predetermined interval, and the inner surface of the discharge hopper 1 and the ends of the sluice gate 60 are formed to be spaced apart from each other so that the gap space 62 is formed. Sludge removal device characterized in that. The method of claim 1, The injection nozzle 53 is a sludge removal apparatus, characterized in that the end is bent so that the compressed air or compressed water to be delivered to the corner space of the discharge hopper (1).

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